3,228 research outputs found
Magnetic field structure of the extended 3C 380 jet
An earlier study of the complex jet of 3C 380 by Papageorgiou et al. revealed total intensity and polarization structure associated with a bright knot K1 about 0.7 arcsec from the core that was reminiscent of that expected for a conical shock wave. In this new study, 1.42, 1.66 and 4.99 GHz total intensity, polarization and Faraday rotation images are presented and analysed. These images were derived from observations with the Very Long Baseline Array plus one antenna of the Very Large Array, obtained in 2006 March. These new images confirm the overall magnetic field structure of the knot K1 indicated in the earlier observations. In addition, a clear Faraday rotation gradient has been detected across the jet, extending roughly from 10 to 30 mas (70–200 pc) along the jet from the core (a radial distance of approximately two beamwidths). The gradient spans roughly 3.5 beamwidths in the transverse direction, and the difference in the rotation measures on either side of the jet is 4–5σ, demonstrating that the detection of the gradient is firm. We interpret this transverse Faraday rotation gradient as reflecting systematic variation of the line-of-sight component of a helical or toroidal magnetic field (B) associated with the jet of 3C 380. These results provide evidence that the helical field arising due to the joint action of the rotation of the central black hole and its accretion disc and the jet outflow can survive to distances of hundreds of parsecs from the central engine
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Investigating postharvest chilling injury in tomato (Solanum lycopersicum L.) fruit using magnetic resonance imaging and 5-azacytidine, a hypomethylation agent
Tomato, like most species from tropical and subtropical regions, exhibits postharvest chilling injury (PCI) when stored at low temperatures. Because of its economic importance and the functional genomics tools available, we used tomato to investigate aspects of fruit PCI development. We asked two questions: First, are there spatial-temporal differences in the development of PCI that can be detected by magnetic resonance imaging (MRI)? Here, the aim was to use a non-invasive method to study PCI progression in vivo. At mature green and breaker, the pericarp, locular tissue and columella produced distinct D-values while in contrast, there was no such differentiation in riper fruit. Although the pericarp is where most PCI symptoms are visible, this tissue showed less dynamism upon cold exposure, compared to the inner tissues as detected by MRI. This suggests the occurrence of distinct, independently modulated mechanisms contributing to the development of PCI-symptomatology. Collectively our data showed that the MRI could detect fruit ripening, its attenuation by cold, and fruit tissue-specific responses to chilling stress. The second question we asked was if epigenetic modification of the tomato genome or transcriptome influences PCI response. We examined PCI severity in fruit injected with a demethylating agent, 5- azacytidine (AZA). Two tomato genotypes exposed to varying severities of cold-stress were studied. Results suggested that AZA was able to moderate PCI in 'Micro-Tom' after 3 weeks at 2.5°C, while different patterns were observed in 'Sun Cherry' across various cold treatments. The effects of AZA on PCI were complex, multilayered and highly context-dependent
Competency-based Education in Public High Schools
Recent government-backed programs such as Race to the Top and No Child Left Behind have increased competition in schools in an effort to improve student and teacher performance. However, these programs have not had as drastic an impact as many had hoped, and the United States continues to toil in the middle of the pack educationally when compared with the rest of the world.
As many students have continued to struggle in school, many different ideas have been introduced into different levels of the education system in an attempt to raise scores and boost performance. One such idea is competency-based education (CBE), which is an alternative to the traditional time-based system of public education. Rather than receiving a diploma for completing four years of high school, CBE focuses on individualization for students. Semester-long and year-long classes are replaced with a list of competencies in which students must demonstrate mastery in order to earn their diplomas.
As with any other educational concept, there is just as much criticism toward CBE as there is praise. Through a literature review, I aim to describe the benefits and drawbacks of the CBE system. I lay out the advantages CBE has that the current education system lacks while simultaneously pointing out potential flaws. In addition, student and teacher survey results from a local high school are analyzed to help determine the pros and cons of the current education system. The analysis aims to overview both students\u27 and teachers\u27 receptiveness to a possible shift toward CBE. The Institutional Review Board process is also explained to display the process of getting into a school to do field work. With all of the aforementioned information being pulled together, a final letter to the high school\u27s principal and superintendent is created which outlines the final synthesis and analysis of the data. Policy recommendations are made in an attempt to help the school achieve future success.
It remains largely unknown whether CBE could make a lasting positive impact on high school students. However, by extrapolating from the data presented, it is possible to begin to draw a picture of the current state of affairs as well as the possible implications and changes of a CBE system
Efficient method for estimating the number of communities in a network
While there exist a wide range of effective methods for community detection
in networks, most of them require one to know in advance how many communities
one is looking for. Here we present a method for estimating the number of
communities in a network using a combination of Bayesian inference with a novel
prior and an efficient Monte Carlo sampling scheme. We test the method
extensively on both real and computer-generated networks, showing that it
performs accurately and consistently, even in cases where groups are widely
varying in size or structure.Comment: 13 pages, 4 figure
Nanometer-scale sharpness in corner-overgrown heterostructures
A corner-overgrown GaAs/AlGaAs heterostructure is investigated with
transmission and scanning transmission electron microscopy, demonstrating
self-limiting growth of an extremely sharp corner profile of 3.5 nm width. In
the AlGaAs layers we observe self-ordered diagonal stripes, precipitating
exactly at the corner, which are regions of increased Al content measured by an
XEDS analysis. A quantitative model for self-limited growth is adapted to the
present case of faceted MBE growth, and the corner sharpness is discussed in
relation to quantum confined structures. We note that MBE corner overgrowth
maintains nm-sharpness even after microns of growth, allowing the realization
of corner-shaped nanostructures.Comment: 4 pages, 3 figure
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